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二维Li+BC3结构高储氢容量的研究
Study of the high hydrogen storage capacity on 2D Li+BC3 complex
【摘要】 本文基于第一性原理密度泛函理论,证实了锂原子可以均匀地吸附在二维结构的BC3片两侧,同时被吸附的锂原子不会抱团.通过计算表明,被吸附的锂原子浓度达到33.3%时,Li+BC3体系具有最高的储氢比例12.57wt.%.然后,通过热力学分析预测了在室温(300K)下,115—250atm之间,Li+BC3体系可以达到上述储氢比例,这不仅符合美国能源部的要求,也满足了应用中的安全需要.
【Abstract】 First principle calculations predicted that Li atoms can be uniformly adsorbed on both sides of BC 3 sheet without clustering.After the coverage of adsorbed Li atoms approaches 33.3%,Li+BC 3 complex attains a largest hydrogen storage ability of 12.57 wt.%.Thermodynamic analysis confirms that at room temperature(300 K) and pressure in the range of 115—250 atm,Li+BC 3 complex can have the hydrogen storage capacity mentioned above.These values satisfy not only the DOE(U.S.) requirement but also the security needs in application.
- 【文献出处】 物理学报 ,Acta Physica Sinica , 编辑部邮箱 ,2013年13期
- 【分类号】O469
- 【被引频次】11
- 【下载频次】110